HomeMy WebLinkAbout136 MAPLE AVE; ; CB032804; Permit02-06-2004 -
Job Address
Permit Type
Parcel No
Valuation
Occupancy Group
# Dwelling Units
Bedrooms
Project Title
City of Carlsbad
1635 Faraday Av Carlsbad, CA 92008
Residential Permit Permit No CB032804
Building Inspection Request Line (760) 602-2725
136 MAPLE AVCBAD
RESDNTL Sub Type
Lot#
$0 00 Construction Type
Reference #
0 Structure Type
0 Bathrooms
VILLAS DE LUZ TEMP SHORING
FOR 1 CONDO BLDGW/4 UNITS
RAD
0
NEW
Status
Applied
Entered By
Plan Approved
Issued
Inspect Area
Orig PC#
Plan Check#
ISSUED
10/09/2003
SB
02/06/2004
02/06/2004
Applicant
MULLEN CONSTRUCTION
2890 PIO PICO DR
CARLSBAD, CA 92008
619-434-2233
Owner
HEDRICK MICHAEL C&LUZVIMINDA E
16777N111TH ST
SCOTTSDALE AZ 85255 -
Building Permit
Add'l Building Permit Fee /
Plan Check
Add'l Plan Check Fee
Plan Check Discount /
Strong Motion Fee /
Park in Lieu Fee /
Park Fee / r
LFM Fee '
Bridge Fee
Other Bridge Fee ' '
BTD #2 Fee
BTD #3 Fee '.
Renewal Fee
Add'l Renewal Fee
Other Building Fee '
Pot Water Con Fee ''
Meter Size
Add'l Pot Water Con Fee
Reel Water Con Fee ^
; $000
-$12000
$000
, $0 00 f$0 00
$000
$000
"\ $0 00
^$ooo-~
$000
$000
$0 QOso'otf.
$000'
^so'oo1
$000,1 ^$ooo\•>
$000
x $000
_/•"
J
Meter Size
Add'l Reel Water Con Fee .
Meter Fee ;•-" -.
SDCWA FeeJ • s ;
,CFD Payoff Fee \ - '
PFF'V ^ ,
^PFF (CFDf und}
'License Tax" ' ^ -;
License Tax (CFDjFund) ',
Traffic Impact^ee -,
Traffic Impact'(CFD Fund)'.
Sidewalk Fee '' *
'PLUMBING TOTAL " "' • ,
ELECTRICAL^TOTAL ",t J <
MECHANICXLTOJAL ! /
Housing Impact Fee,' -'
Housing InLieu Fee''- ' '
Housing" Credit'Fee ^
Master Drainage Fee ,
Additional Feesx
TOTAL PERMIT FEES
$000
$000
$000
$000
$000
$000
$000
, $000
' $000
$000
I $000
. $000
' $000
; $000
• $000
$000
$000
$000
$000
$000
$12000
Total '*•'' , *. c ^ - > /Fees $120 00 Total Payments To' Date"' /," ~^ $0 00 x J Balance'Due $120 00
4772 Q2/06'G4 000? 0j 02
CGP i?0-00
Inspecto
FINAL£i
Date ^
PPROVA
Clearance
NOTICE Please take NOTICE that approval of your project includes the "Imposition1 of fees, dedications, reservations, or other exactions hereafter collectively
referred to as lees/exactions" You have 90 days from the date this permit was issued to protest imposition of these fees/exactions If you protest them, you must
follow the protest procedures set forth in Government Code Section 66020(a), and file !he protest and any other required information with the City Manager for
processing in accordance with Carlsbad Municipal Code Section 3 32 030 Failure to timely follow that procedure will bar any subsequent legal action to attack,
review, set aside, void, or annul their imposition
You are hereby FURTHER NOTIFIED that your nght to protest the specified fees/exactions DOES NOT APPLY to water and sewer connection lees and capacity
changes, nor planning, zoning, grading or other similar application processing or service fees in connection with this project NOR DOES IT APPLY to any
Jees/exacjions of which you have previously been given a NOTICE similar lo_tbis. or as to which the statute of limitations has previously otherwise..expired
PERMIT APPLICATION
CITY OF CARLSBAD BUILDING DEPARTMENT
1635 Faraday Ave , Carlsbad, CA 92008
PROJECT INFORMATION^
L&rs XL. 1*8
FOR OFFICE USE ONLY
PLAN CHECK NO
EST VAL
Plan Ck Deposit
Validated By.
Date
Business Name Tat {his~addressjAddress (include Bldg/Suite #)
Legal Description Lot No Subdivision Name/Number Unit No Phase No Total # of units
Assessor's Parcel #Existing Use Proposed Use
Description of Work .
'Z""'j$CO™NTftCT PERSpNs(if differentjfrom^pplicftit}
SO FT #of Stones # of Bedrooms # of Bathrooms
Name Address State/Zip Telephone #Fax #
Address City State/Zip Telephone
Name Address City State/Zip Telephone #
CONTRACTOR^ COMPANY NAME
(Sec 7031 5 Business and Professions Code Any City or County which requires a permit to construct, alter, improve, demolish or repair any structure, prior to its
issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law
[Chapter 9, commending with Section 7000 of Division 3 of the Business and Professions Code] or that he is exempt therefrom, and the basis for the alleged
exemption Any vi^ation of Section 7031 5 by any. applicant fata permit subjects the Applicant to a civil penalty of not more than five hund/ed dajlars [S500]}
10 Pto£*L CA
Name
State License #78s-Address
License Class
City State/Zip
City Business License It
Designer Name
State License #
Address City State/Zip Telephone
Workers' Compensation Declaration I hereby affirm under penalty Of perjury one of the following declarations
O I have and will maintain a certificate of consent to self-insure for workers compensation as provided by Section 3700 of the Labor Code, for the performance
of tha-work for which this permit is issued
fjj I have and will maintain workers' compensation, as required by Section 3700 of the Labor Code, for the performance of the work for which this permit is
issued My worker's compensation msj^rance carrier anjj policy number are
Insurance Company ///&WM/A _ JUjfl&fM C~G> . ^Stf . Policy No J- Expiration Date
(THIS SECTION NEED NOT BE COMPLETED IF Th PERMIT IS FOR ONE HUNDRED DOLLARS [$1001 OR LESS)
HI CERTIFICATE OF EXEMPTION I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as
to become subject to the Workers' Compensation Laws of California
WARNING Failure to secure workers' compensation coverage is unlawful, and shall subject an employer to criminal penalties and civil fines up to one hundred
) thousand dollars (SJUW.OOOL l^ additjgffio the cost of compensation, damages as provided for in Section 3706 of the Labor code interest and attorney's fees
A SIGNATURE ^^fl/A 5£2— - '" _ DATE
I hereby affirmXhat I am exempt frofTilTio CuiiliJCTor's License Law for the following reason
Q I, as owner of the property or my employees with wages as their sole compensation, will do the work and the structure is not intended or offered for sale
{Sec 7044, Business and Professions Code The Contractor s License Law does not apply to an owner of property who builds or improves thereon, and who does
such work himself or through his own employees, provided that such improvements are not intended or offered for sale If, however, the building or improvement is
sold within one year of completion, the owner-builder will have the burden of proving that he did not build or improve for the purpose of sale)
D I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec 7044, Business and Professions Code The
Contractor's License Law does not apply to an owner of property who builds or improves thereon, and contracts for such projects with contractor(s) licensed
pursuant to the Contractor's License Law)
C3 I am exempt under Section _ Business and Professions Code for this reason
1 I personally plan to provide the major labor and materials for construction of the proposed property improvement Q YES QNO
2 I (have / have not) signed an application for a building permit for the proposed work
3 I have contracted with the following person (firm) to provide the proposed construction (include name / address / phone number / contractors license number)
4 I plan to provide portions of the work, but I have hired the following person to coordinate, supervise and provide the major work (include name / address / phone
number / contractors license number) r
5 I will provide some of the work, but I have contracted (hired) the folJowmg persons to provide the work indicated (include name / address / phone number / type
of work)
PROPERTY OWNER SIGNATURE DATE
COMPLETE iTHlS SECTION^FOR NQN-RESIDENTtAL BUILDING' PERMITS ONLYf &&&!•* W^A s , ! W&fjf I ^I'CI.ZKA,, ^l 1 ! , I ,' ! >*& ' >« f- * > >t> •«•?« . «. Jtf , «\» '.
Is the applicant or future building occupant required to submit a business plan, acutely hazardous materials registration form or risk management and prevention
program under Sections 25505, 25533 or 25534 of the Presley-Tanner Hazardous Substance Account Act? Q YES Q NO
Is the applicant or future building occupant required to obtain a permit from the air pollution control district or air quality management district? C] YES Q NO
Is the facility to be constructed within 1,000 feet of the outer boundary of a school site? O YES Q NO
IF ANY OF THE ANSWERS ARE YES, A FINAL CERTIFICATE OF OCCUPANCY MAY NOT BE ISSUED UNLESS THE APPLICANT HAS MET OR IS MEETING THE
REQUIREMENTS OF THE OFFICE OF EMERGENCY SERVICES AND THE AIR POLLUTION CONTROL DISTRICT
8^ "CONSTRUCTION LENDING AGENC^VA ^ S1 5 *li ? ?t\ , ITU'* d $ *lC t> ^j,1 -,fc ' , ?, , .w J \' ,'"'„, , ',!,/',',*' ,> -if E 'J, !.', ^Mr^ s V^fVV '
I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued (Sec 3097{i) Civil Code)
LENDER'S NAME LENDER'S ADDRESS
I certify that I have read the application and state that the above information is correct and that tne information on the plans is accurate I agree to comply with all
City ordinances and State laws relating to building construction 1 hereby authorize representatives of the CitV of Carlsbad to enter upon the above mentioned
property for inspection purposes I ALSO AGREE TO SAVE, INDEMNIFY AND KEEP HARMLESS THE CITY OF CARLSBAD AGAINST ALL LIABILITIES,
JUDGMENTS, COSTS AND EXPENSES WHICH MAY IN ANY WAY ACCRUE AGAINST SAID CITY IN CONSEQUENCE OF THE GRANTING OF THIS PERMIT
OSHA An OSHA permit is required for excavations over 5'0" deep and demolition or construction of structures over 3 stories in height
EXPIRATION Every permit issued by the building Official under the provisions of this Code shall expire by limitation and become null and void if the building or work
authorized by such permit is not commenced withiD-180 days from the date of such permit or if the building or work authorized by such permit is suspended or abandoned
at any time after the work is commejyred Jo/a p^rjjKl of 180 days (Section 106 4 4 Uniform Building Code)
APPLICANT'S SIGNATURE DATE
WHITE File YELLOW Applicant PINK Finance
City of Carlsbad Bldg Inspection Request
For 03/12/2004
Permit# CB032804
Title VILLAS DE LUZ TEMP SHORING
Description FOR 1 CONDO BLDG W/ 4 UNITS
Inspector Assignment PD
Type RESDNTL Sub Type RAD
Job Address 136 MAPLE AV
Suite Lot 0
Location
APPLICANT MULLEN CONSTRUCTION
Owner
Remarks FINAL SHORING INSPECTION
Phone 7608400598
Inspector
Total Time
CD Description Act Comment
14 Frame/Steel/Boltmg/Weldmg
Requested By TIM
Entered By CHRISTINE
6
Associated PCRs/CVs
Inspection History
Date Description Act Insp Comments
02/25/2004 65 Retaining Walls PA PD DRAIN
02/23/2004 21 Underground/Under Floor CA PS BY TIM
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
619258-7901
Fax 619 258-7902
E Howard & Pauline Eggebrecht March 2, 2004
Eggebrecht Family Limited Partnership Project No 01-1106E6(B)
PO 8ox21012
Billings, Montana 59104
Subject Drilled Caisson Observation
Proposed 4-Umt Residential Building, Villa De Luz
Lots No 7 & 8, Maple Avenue
City of Carlsbad, California
Reference "Limited Site Investigation, Proposed 4 or 5 Unit Residential Building Site, Lots No 7 &
8, Maple Avenue, City of Carlsbad, California"', Project No 01-1106E6, Prepared by
East County Soil Consultation and Engineering, Inc , Dated June 2, 2001
Dear Mr & Mrs Eggebrecht
In accordance with your request, we have observed the drilled caissons for the permanent shoring along
the east property line at the subject site
The caissons have been drilled to the proper depth and diameter into competent bearing soils and are in
compliance with the approved building plans Drilled caissons, soil expansion characteristics and soil
bearing capacity are in accordance with the referenced soils report (Reference No 1)
In addition, the shoring has been properly backfilled and compacted
If we can be of further assistance, please do not hesitate to contact our office
Sincerely yours,
Mamadou Sahou Diallo, P E
RCE 54071
MSDWd
DATE
BUILDING PLANCHECK CHECKLIST
PLANCHECK NO
BUILDING ADDRESS
PROJECT DESCRIPTION
ASSESSOR'S PARCEL NUMBER
ENGINEERING DEPARTMENT
APPROVAL
The item you have submitted for review has been
approved The approval is based on plans,
information and/or specifications provided in your
submrtta), therefore any changes to these items after
this date, including field modifications, must be
reviewed by this office to insure continued
conformance with applicable codes Please review
carefully all comments attached, as failure to comply
with instructions in this report can result in
suspension of permit to build
A Right-of-Way permit is required pnorto
construction of the following improvements
DENIAL
Please see\ thaxattached report of deficiencies
marked withfa^Make necessary corrections to plans
or specifications for compliance with applicable
codes and standards Submit corrected plans and/or
specifications to this office for review
Date
Date
DateBy
ENGNEERIN&AUTHORlZATIONTO ISSUE BUILDINGPERMT.
TTApHMENTS
Dedication Application
Dedication Checklist
Improvement Application
Improvement Checklist
Future Improvement Agreement
Grading Permit Application
Grading Submittal Checklist
Right-of-Way Permit Application
Right-of-Way Permit Submittal Checklist
and Information Sheet
Sewer Fee Information Sheet
ENGINEERING DEPT CONTACT PERSON
Name JOANNE JUCHNIEW1CZ
City of Carlsbad
Address 1635 Faraday Avenue, Carlsbad. CA 92008
Phone (760) 602-2775 ^__^^_
CFD INFORMATION
Parcel Map No
Lots
Recordation
Carlsbad Tract
A-4
H WORD\DOcS\CHKLST\BufldlnQ PtencHech CU« Foim (Generic) doc
D
BUILDING PLANCHECK CHECKLIST
erW\
1 Provide a fully dimensioned site plan drawn to scale Show
A North Arrow
B Existing & Proposed Structures
C Existing Street Improvements
D. Property Lines
E Easements
F Right-of-Way Width & Adjacent Streets
G Driveway widths
H Existing or proposed sewer lateral
I Existing or proposed water service
J Existing or proposed irrigation service
2 Show on site plan
A Drainage Patterns
1 Building pad surface drainage must maintain a minimum slope of one
percent towards an adjoining street or an approved drainage course
2 ADD THE FOLLOWING NOTE "Finish grade will provide a minimum positive
drainage of 2% to swale 5' away from building "
B Existing & Proposed Slopes and Topography
C Size, type, location, alignment of existing or proposed sewer and water service
(s) that serves the project. Each unit requires a separate service, however,
second dwelling units and apartment complexes are an exception
Sewer and water laterals should not be located within proposed driveways, per
standards
3 Include on title sheet
A Site address
B Assessor's Parcel Number
C Legal Description
For commercial/industrial buildings and tenant improvement projects, include
total building square footage with the square footage for each different use,
existing sewer permits showing square footage of different uses (manufacturing,
warehouse, office, etc) previously approved
EXISTING PERMIT NUMBER DESCRIPTION
H VWORD\DQCS\CHKLST\Buflding Planctieck CWsl Form (Generic) doc , Rev 7/14/00
BUILDING PLANCHECK CHECKLIST
1ST/2ND 3
ana
DISCRETIONARY APPROVAL COMPLIANCE
4a Project does not comply with the following Engineering Conditions of approval for
Project No ; '
Al1 conditions are in compliance Date
D
\7
DEDICATION REQUIREMENTS
5 Dedication for all street Rights-of-Way adjacent to the building site and any storm
drain or utility easements on the building site is required for all new buildings and
for remodels with a value at or exceeding $15.000. pursuant to Carlsbad
Municipal Code Section 18 40 030
Dedication required as follows
Dedication required Please have a registered Civil Engineer or Land Surveyor
prepare the appropriate legal description together with an 8 Yz x 11" plat map
and submit with a title report. All easement documents must be approved and
signed by owner(s) prior to issuance of Building Permit. Attached please find an
application form and submittal checklist for the dedication-process Submit the
completed application form with the required checklist items and fees to the
Engineering Department in person Applications will not be accept by mail or fax.
Dedication completed by Date
ODD
IMPROVEMENT REQUIREMENTS
6a All needed public improvements upon and adjacent to the building site must be
constructed at time of building construction whenever the value of the
construction exceeds $75.000. pursuant to Carlsbad Municipal Code Section
1840040
> Public improvements required as follows
Attached please find an application form and submittal checklist for the public
improvement requirements A registered Civil Engineer must prepare the
appropriate improvement plans and submit them together with the requirements
on the attached checklist to the Engineering Department through a separate plan
check process The completed application form and the requirements on the
H \WORO\DOCS\CHKLST\BuikHna Plancheck CKIst Foirn (RIDDLE HARVEY 7 12-00) doc
1 »
BUILDING PLANCHECK CHECKLIST
ST
CH D EH
checklist must be submitted in person Applications by mail 'or fax are not
accepted Improvement plans must be approved, appropriate securities posted
and fees paid prior to issuance of building permit
Improvement Plans signed by Date
6b Construction of the public improvements may be deferred pursuant to Carlsbad
Municipal Code Sect/on 1 8 40 Please submit a recent property title report or
current grant deed on the property and processing fee of $310 so we may
prepare the necessary Future Improvement Agreement This agreement must be
signed, notarized and approved by the City prior to issuance of a Building permit
D D
CD CD
Future public improvements required as follows-
6c Enclosed please find your Future Improvement Agreement
agreement signed and notarized to the Engineering Department
Please return
Future Improvement Agreement completed by
Date
6d No Public Improvements required SPECIAL NOTE Damaged or defective
improvements found adjacent to building site must be repaired to the satisfaction
of the City Inspector prior to occupancy
[I D
GRADING PERMIT REQUIREMENTS
The conditions that invoke the need for a grading permit are found in Section
11 06 030 of the Municipal Code
7a Inadequate information available on Site Plan to make a determination on grading
requirements Include accurate grading quantities {cut, fill import, export)
7b Grading Permit required. A separate grading plan prepared by a registered Civil
Engineer must be submitted together with the completed application form
attached NOTE The Grading Permit must be issued and rough grading
approval obtained prior to issuance of a Building Permit
Grading Inspector sign off by Date
7c Graded Pad Certification required {Note Pad certification may be required even
4*-§fadiagj3ermit is not required )
0,P^
H \WOHD\DOCS\CHKLS~nBuilding Plancheck Cklsl Form (Generic 7 14 00) doc
( >
BUILDING PLANCHECK CHECKLIST
-|ST
D
ND QRD2ND 3
Q 7d No Grading Permit required
D
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Vl^f^
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7e If grading is not required, write "No Grading" on plot plan
MISCELLANEOUS PERMITS
8 A RIGHT-OF-WAY PERMIT is required to do work in City Right-of-Way and/or
Pnvate wor"k adjacent to the public Right-of-Way Types of work include, but are
not limited to street improvements, tree trimming, driveway construction, tying
into public storm dram, sewer and water utilities
Right-of-Way permit required for
INDUSTRIAL WASTE PERMIT If your facility is located in the City of Carlsbad
sewer service area, you need to contact the Carlsbad Municipal Water District,
located at 5950 El Camino Real, Carlsbad, CA 92008 District personnel can
provide forms and assistance, and will check to see if your business enterprise is
on the EWA Exempt List You may telephone (760) 438-2722, extension 7153,
for assistance
Industrial Waste permit accepted by
Date
10 NPDES PERMIT
Complies with the City's requirements of the National Pollutant Discharge
Elimination System (NPDES) permit The applicant shall provide best
management practices to reduce surface pollutants to an acceptable level prior to
discharge to sensitive areas Plans for such improvements shall be approved by
the City Engineer prior to issuance of grading or building,, permit, whichever
occurs first.
Q Required fees are attached
fees required
1 1
WATER METER REVIEW
12a Domestic (potable) Use
Ensure that the meter proposed by the owner/developer is not oversized
Oversized meters are inaccurate during low-flow conditions If it is oversized, for
the life of the meter, the City will not accurately bill the owner for the water used
• All single family dwelling units received "standard" 1" service with 5/8" service
H \WORD\DOcs\CHKLST\BuHdlna Plancha* CWsl Form (Generic) doc
1ST jND >RD
D I2b
BUILDING PLANCHECK CHECKLIST
• If owner/developer proposes a size other than the "standard", then
owner/developer must provide potable water demand calculations,
which include total fixture counts and maximum water demand in gallons
per minute (gpm) A typical fixture count and water demand worksheet is
attached Once the gpm is provided, check against the "meter sizing
schedule" to verify the anticipated meter size for the unit
• Maximum service and meter size is a 2" service with a 2" meter
• If a developer is proposing a meter greater than 2", suggest the
installation of multiple 2" services as needed to provide the anticipated
demand (manifolds are considered on case by case basis to limit
multiple trenching into the street)
Irrigation Use (where recycled water is not available)
All irrigation meters must be sized via irrigation calculations (in gpm) prior
to approval The developer must provide these calculations Please follow
these guidelines
1 if the project is a newer development (newer than 1998), check the recent
improvement plans and observe if the new irrigation service is reflected on
the improvement sheets If so, at the water meter station, the demand in
gpm may be listed there Irrigation services are listed with a circled "I",
and potable water is typically a circled "W" The irrigation service should
look like
STA 1+00 Install 2" service and
5 meter (estimated 100 gpm)
If the improvement plans do not list the irrigation meter and the
service/meter will be installed via another instrument such as the building
plans or grading plans (w/ a right of way permit of course), then the
applicant must provide irrigation calculations for estimated worst-case
irrigation demand (largest zone with the farthest reach) Typically, Larry
Black has already reviewed this if landscape plans have been prepared,
but the applicant must provide the calculations to you for your use. Once
you have received a good example of irrigation calculations, keep a set for
your reference In general the calculations will include
• Hydraulic grade line
• Elevation at point of connection (POC)
• Pressure at POC in pounds per square inch (PSI)
• Worse case zone (largest, farthest away from valve
• Total Sprinkler heads listed (with gpm use per head)
• Include a 10% residual pressure at point of connection
In general, all major sloped areas of a subdivision/project are to be
irngated via separate irrigation meters (unless the project is only SFD with
no HOA) As long as the project is located within the City recycled water
H \WORD\DOCS\CHKLST\BulkJlro Plandieck CUst Foim (Generic) Hoc 6
BUILDING PLANCHECK CHECKLISTRD
service boundary, the City intends on switching these irrigation
services/meters to a new recycled water line in the future
tX^ EH C] 12c Irrigation Use (where recycled water is available)
1 Recycled water meters are sized the same as the irrigation meter above.
2 If a project fronts a street with recycled water, then they should be
connecting to this line to irrigate slopes within the development For
subdivisions, this should have been identified, and implemented on the
improvement plans Installing recycled water meters is a benefit for the
applicant since they are exempt from paying the San Diego County Water
Capacity fees However, if (hey front a street which the recycled water is
there, but is not live (sometimes they are charged with potable water until
recycled water is available), then the applicant must pay the San Diego
Water Capacity Charge If within three years, the recycled water line is
charged with recycled water by CMWD, then the applicant can apply for a
refund to the San Diego County Water Authority (SDCWA) for a refund.
However, let the applicant know that we cannot guarantee the refund, and
they must deal with the SDCWA for this
D D D 13 Additional Comments:
H \WORD\DOcs\CHKLST\BuftJln9 Planchecfc Cklst Foim (Genertc) doc
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Temporary Shoring Design Calculations
Villas de Luz
Carlsbad, California
October 7, 2003
ESSI Project #03-1 60
Table of Contents. Section
Shoring Plans
Lateral Surcharge from Building
Soldier Beam #1, 17(H=4f)
Soldier Beam #2-11 (H=10')
Soldier Beam # 12-16 (H=10', with Building Surcharge)
Lagging Design
Soldier Beam Schedule
Geotechnical Report (Partial)
/^^T^fEARTH SUPPORT SYSTEMS, /MC.
1 Wr 1833 DIAMOND STREET, SUITE 1O4
\ HiL ISAN MARCOS. CALIFORNIA 92O69
\ YTEL (76O) 761-0492 -. ^«> «^ -^
^-^Jj FAX (760) 761-0493 [\ ^f ~T J*\. ^ %K£
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EARTH SUPPORT SYSTEMS, INC.
1833 DIAMOND STREET, SUITE 1O4
'SAN MARCOS, CALIFORNIA 92O69
TEL (76O) 761-O492
'FAX (76O) 761-O493
October 7, 2003
Mr Rian Grenke
California Drilling & Engineering Group
970 W. Valley Parkway, # 409
Escondido, CA 92025
Phone (760) 291-1181
Fax(760) 291-1183
Re:Villas de Luz
Carlsbad, California
JOB #03-160
Subject: Temporary Shoring Design Submittal
Dear Mr Grenke
Enclosed please find the temporary shoring design submittal for the above referenced
project
Should you have any additional questions or comments regarding this matter, please
advise
Sincerely,
EARTH SUPPORT SYSTEMS, INC
Ricardo Jordan
AssistaTn Engineer
William S Fischetti, PE
President
Encl Design Calculations
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Temporary Shoring Design Calculations
-
Villas de Luz
Carlsbad, California
•
October 7, 2003
ESSI Project #03-160
Table of Contents: Section
Shoring Plans
Lateral Surcharge from Building
Soldier Beam #1, 17(H=4')
Soldier Beam #2-11 (H=10')
Soldier Beam # 12-16 (H=10\ with Building Surcharge)
Lagging Design •
Sold/er Beam Schedule
Geotechnical Report (Partial)
/^^^JEARTH SUPPORT SYSTEMS, ffVC.
( ^^ 1833 DIAMOND STREET, SUITE 1O4
I V£. IS AN MARCOS. CALIFORNIA 92O69
\ f/TEL (76O) 761-O492
^^fjFAX (76O) 76 1 -O493
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SECTION 1
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VILLAS DE LUZ
CARLSBAD, CALIFORNIA
PROPOSED TEMPORARY SHORING
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VILLAS DE LUZ
CARLSBAD, CALIFORNIA
PROPOSED TEMPORARY SHORING ^^_T^«ftHJ Ttl-waj
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VILLAS DE WZ
CARLSBAD CALIFORNIA
PROPOSED TEMPORARY SHORING
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LUZ
CARLSBAD, CALIFORNIA
SECTION 2
WSUPPORT SYSTEMS
'1833'DIAMOND SltekTSUtTE 104
MARCOS, CA930&
(78% 761-0482
-AX(76$ 761-0&3
Name
Checked By
Job Description
Date
Client
Job No
Sheet ' of
I
H
AREA LOAD Pa
BOTTOM OF EXCAVATION_
LATERAL SURCHARGE
AREA LOAD PARALLEL TO WALL
BOUSSINEQ EQUATION
I
1
1
1
1
•
1
•
•
•
'" •
Earth Support Systems, !nc
1833 Diamond St , Suite 104
San Marcos, CA 92069
PARAMETERS-
H-| = 2 ft
H2 = 8 ft
Ht - H-i + H2
Ht= 10ft
x-] = 78 m
X2 = x-| + 24 in
40
yi = — ft
2
q = 2 75 ksf
K = 0 70
Villas de Luz
Engr RCJ Date 10/07/03
Sheet ^ of
LATERAL SURCHARGE PRESSURE
(Adjacent Struture - SB # 12-16)
= DISTANCE FROM GRADE TO BOTTOM OF SLOPE
= DISTANCE FROM BOTTOM OF SLOPE TO SUBGRADE
= HEIGHT OF SHORING WALL
-
= DISTANCE TO CLOSEST EDGE OF SURCHARGE LOADING
FROM FACE OF EXCAVATION
= DISTANCE TO FARTHEST EDGE OF SURCHARGE LOADING
FROM FACE OF EXCAVATION
= LENGTH OF LOADED AREA
= ASSUMED UNIFORM AREA LOAD
- RIGIDITY COEFFICIENT FOR RELATIVE YIELDING OF SOIL
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& RETAINING STRUCTURE K = 0 5 FOR FLEXIBLE WALLS
K = 1 0 FOR RIGID WALLS
TO CALCULATE LATERAL SURCHARGE PRESSURE FROM AREA LOAD PARALLEL TO WALL,
USE BOUSSINESQ EQUATION (SOIL ENGINEERING, 4™ EDITION, SPANGLER)
z = 00ft,01 ft H2
Rl,(x,y,z) =2 2+ y + z
= 2Kq
*2
2X Z dx
Oft
SAMPLE PRESSURE VALUE Z = 2 5 ft
TOTAL LOAD (SURCHARGE + SOIL)
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Ph =
0 ft
= 1 354 x 10 plf
Lateral Surcharge from Bldg mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet ^ of
RATIO
Ph— = 0492ftq
CENTROID {From the Bottom of Excavation)
ah(z)(H2-z)dz
R =0 ft
Ph R = 3 531 ft
TO SIMPLIFY THE ANALYSIS, MODEL THE CURVED SURCHARGE DIAGRAM AS A UNIFORM LOAD
ACTING OVER THE FULL HEIGHT (H), PLUS AN ADDITIONAL UNIFORM LOAD ACTING OVER THE
PARTIAL HEIGHT (Hs)
U-i =175 psf
Ps = 0 0 psf
Hs = 0 0 ft
H = Oft.O 1 ft Hs
TOTAL SUBSTITUTE PRESSURE
Uniform Load Full Height +
Uniform Load Partial Height
PT-U! H2+PSHS
PT = I 4kif
TOTAL PRESSURE
From Boussmesq Analysis
Ph = 1 354 klf
CHECK = if(pT > Ph, "OK'" , "No Good
CHECK = "OK'"
= Assumed Uniform Pressure (Full Height)
= Assumed Uniform Pressure (Partial Height)
= Height of the Surcharge Loading Diagram
BOUSSINESQ DISTRIBUTION
z
ft
g £
£ ftD-(U •——
500 1000 1500
OhOO _Ui_ Ul+P
psf psf psf
Lateral Surcharge
2000 2500
Lateral Surcharge from Bldg mcd
SECTION 3
WSUPPORT SYSTEMS
MARCOS, CAS20&
(7GQ7S1-Q492
Name
Checked By
Dote10/06/02*Job No
Cfient
CA
Job Description
Sheet *r of
ORIGINAL GRADE
H
H,
BOTTOM tQF EXCAVATION
JAi
H3,
\p,
LOADING DIAGRAM FOR
CANTILEVERED SHORING SYSTEM
NO HYDROSTATIC PRESSURE
T
Xs
\ H<
H<S I 'S
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
PARAMETERS
H = 4 0 ft
D = 7 ft
c = 35 psf
c' = 35 psf
Pa = 40 pcf
Pp = 240 pcf -
(j> = 31 deg
Y-] =115 pcf
Ysat = 115 pcf
Y2 = Ysat- 0 pcf
72 = 115 pcf
Pa H - 2 c
H
= 30pCf
Pp D + 2 c1 / —
, Y1
D
Pp- = 254 pcf
FV
Y1
IE.
Y1
Ka - 0 26
Villas de Luz
Engr RCJ Date 10/06/03
Sheet ^ of
CANTILEVER DESIGN
SB_NUMBER = "1, 17"
HEIGHT OF SHORING SYSTEM
ASSUMED INITIAL TOE EMBEDMENT DEPTH
SOIL COHESION (ACTIVE PRESSURE)
SOIL COHESION {PASSIVE PRESSURE)
ACTIVE PRESSURE {NEGLECTING SOIL COHESION)
PASSIVE PRESSURE (NEGLECTING SOIL COHESION)
SOIL FRICTION ANGLE
UNIT WEIGHT OF SOIL ABOVE SUBGRADE
SATURATED UNIT WEIGHT OF SOIL
BOUYANT UNIT WEIGHT OF SOIL BELOW WATER TABLE
ACTIVE SOIL PRESSURE ORDINATE PER FOOT OF DEPTH BELOW GRADE
(ACCOUNTING FOR SOIL COHESION)
PASSIVE PRESSURE ORDINATE PER FOOT OF DEPTH BELOW SUBGRADE
(ACCOUNTING FOR SOIL COHESION)
- ACTIVE EARTH PRESSURE COEFFICIENT
= PASSIVE EARTH PRESSURE COEFFICIENT
Kp = 221
cant h-4 ft brn 1, 17 mod
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Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
d = 30 in
xb - 8 ft
Fy = 50 ksi
Fb = 1 33 0 60 Fy
Fb = 40ksi
Peg = 0 psf
eq 0 psf
Ps = 100 psf
H = 4 ft
xs = 0 ft
Pvert = 0 k
Pvert =
= 2
f = mm
008
deg
v
f = 0 775
%ear = 0 0 psf
f-l = 600 psf
evert = 0 ft
MVert =
evert
ft
''ft
Villas de Luz
Engr RCJ Date 10/06/03
Sheet £ of
= EFFECTIVE DIAMETER OF TOE SHAFT
= TRIBUTARY WIDTH OF SOLDIER BEAMS
= YIELD STRENGTH OF STEEL
= ALLOWABLE BENDING STRESS FOR STEEL
= EQUIVALENT EARTHQUAKE PRESURE
= TRAFFIC/CONSTRUCTION SURCHARGE PRESSURE
HEIGHT OF SURCHARGE LOADING DIAGRAM
- DISTANCE FROM SURFACE TO SURCHARGE APPLICATION POINT
= VERTICAL LOAD FROM PEDESTRIAN WALKWAY {DEAD + LIVE)
= ISOLATED POLE FACTOR { FOR ARCHING EFFECT )
- RATIO OF TOE WIDTH TO SOLDIER BEAM SPACING ( ARCHING FACTOR )
- ALLOWABLE SOIL BEARING CAPACITY FOR TOE
= ALLOWABLE SOIL FRICTION
= ECCENTRICITY OF VERTICAL LOAD
= MOMENT DUE TO VERTICAL LOAD
cant h-4 ft bm 1, 17 mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet ^ of
SOIL PRESSURE @ SUBGRADE
CALCULATE REQUIRED TOE DEPTH
(Assume trial values for z and D and solve)
PA1 = Pa. H
z = 6 ft D = 20 ft
IbPA1=11872 —
ft
PA2{z,D) =D+fP. H
PE(z,D) = fY2KpD-fPa-H-fY2KaD
Pj(z,D) =
Given
KpH-fY2Ka D
D
+ (Ps Hs) + (f PA1 + PA2(z, D)) -
Ib= 0 —ft
D(PE(z, D) + Pj(z, D)) - - (PE(z, D) + PA2(z, D)) -
D H " X
2 2
PA1 + (PA2(z,D)-f PAl)
D
(PE(Z,D) + PJ<Z,D)) ~ -[PE(Z D) + (pA2(z;D))] — + Mvert
z>0ft
= 0 Ib
zval ]
Dval J
= Fmd(z,D)
z = zval
A'A
D = Dval z=1 84ft
D = 687ft
ROUND OFF "D" TO THE NEAREST
1 FT INCREMENT
DISTANCE TO POINT OF ZERO
PRESSURE"O"
D = Floor(D,ft)+ 1 ft
O =
D = 7ft
O = 0 53ft
cant h=4ft bm 1, 17mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet ^ of
DISTANCE TO POINT OF ZERO SHEAR y = 2 ft
{FROM POINT "O")
Given
/ v y H O kipY2 (Kp-Ka) '— -PAI ~-fPAi --PSHS = O^
TOTAL ACTIVE SOIL LOAD P- H dH
Oft
kipPi = 024 —
ACTIVE SOIL PRESSURE MOMENT
(ABOUT ZERO SHEAR LOCATION "y")
,= P-] | — + O+ y
M-, =1 1 kip ft
ACTIVE SOIL LOAD BLW SUBGRADE PA1 Of
P2 = 0 02 kip
ACTIVE SOIL PRESSURE MOMENT
BELOW SUBGRADE ( ABOUT "y")
iMp = Pp + y*- ' *j
O M2 = 0 08 kip ft
SURCHARGE LOAD P4 =PsdHs kip
SURCHARGE MOMENT ABOUT "y"M4 = P4 H
H
M4=2 kip ft
PASSIVE SOIL LOAD BLW SUBGRADE P3 = f 72 (KP - Ka) —
(ABOUT "y") 2 P3 = 0 66
kip
PASSIVE SOIL PRESSURE MOMENT
BELOW SUBGR ( ABOUT "y")
M3 =P3|i
O = 0 61 kip -
SOLDIER BEAM MOMENT M = [(Mi + M2 - M3) + M4
M = 21 42 kip ft
cant h=4ft brn 1,17 mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet ?_ of
REQUIRED SECTION MODULUS Sr -
TRY BEAM = "W 12x26"Ax = 7 65 in
rx = 5 17 in
L = H + y+ O
K = 1A<W
Sv = 33 4 in*E = 29 10 ksi
I = 204 in
CHECK AXIAL STRESSES
KL
2 C
K
5 V rx
3 8 Cf
KL Fa=2862ksi
vert
CHECK BENDING STRESSES
COMBINED AXIAL AND BENDING
M
fb = 77ksi
fa fb— + — =019
F F
CHECK = if — + — < 1 O/'OKi" , "NO GOOD"F F
CHECK = "OK'1
BEAM = if (CHECK = "OK'" , TRY^BEAM , "CHECK NEW SIZE")
BEAM = "W 12x26"
canth=4ttbm 1, 17 mcd
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Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
CHECK TOE DEPTH FOR VERTICAL LOAD
Dv, = Floor
pvert~ * — qbear
, 4 J_
n df-i
1 ft
SELECT TOE DEPTH "D"
TOE DEPTH SELECTED
D' = if(D>Dv,D,Dv)
D = Ceil{D',ft)
INCREASE "D" FOR FACTOR OF SAFETY
D = Ceil{D 1 01, ft) + 0 ftv
FACTORS OF SAFETY
PE(z,D)= 1 3x 10psf
Pj(z,D) = 2 18x 103psf
x1 = D-z-O
Px1 = fY2(Kp-Ka)(0+x1)
Px1
X2 = Z
X3 = Z-X2
Px1 *
Pj(z,D)
p7 =
2
Px1 X2
Villas de Luz
Engr RCJ Date 10/06/03
Sheet /c? of
Dw = 1 ft
D' = 7ft
D = 7ft
D = 8ft
cant h=4ft bm 1, 17 mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet /> of
SLIDING FORCES Fs = P1 + P4 + P2 +
RESISTING FORCES F
r - P5 +
OVERTURNING MOMENTS
Fs = 2 01 klf
Fr=335klf
H I I S] 0 X3M0 = P1 - + D + P4 D + H - xs - — U P2 D - - U P6 — Mverto / \ z
RESISTING MOMENTS f XI] ( 2x2Mr = P5 I x2 + x3 + — \ + P7 I x3 + —
Fs
Mr
FSf
Mo
CHECK DEFLECTION:
BEAM = "W 12x26"
P-l =2374plf
PS Hs
P = 04klf
SELECTED SOLDIER BEAM
TOTAL ACTIVE SOIL LOAD
TOTAL SURCHARGE LOAD
0 = 696x 103lb -
ft
4 ftMr=1 18x 10 Ib -
ft
FSQ = 1 7
FS0 = 1 7
MODULUS OF ELASTICITY FOR STEEL
= 204 in
D
3
= 80 in
60 E I L
MOMENT OF INERTIA
EFFECTIVE LENGTH OF SOLDIER BEAM FOR CALCULATING DEFLECTION
DISTANCE FROM TOP OF SOLDIER BEAM FOR CALCULATING DISPLACEMENT
5 _,4 A ,5y -5L y+4L
MAXIMUM LATERAL DISPLACEMENT
cant h-4 ft bm 1, 17 mcd
Earth Support Systems, Inc Villas de Luz
1833 DiamondSt, Suite 104 Engr RCJ Date 10/06/03
San Marcos, CA 92069 Sheet /£• of
DESIGN SUMMARY: SB_NUMBER = -1,17
BEAM = "W 12 x 26" SELECTED SOLDIER BEAM
H = 4ft HEIGHT OF SHORING
D = 8ft TOE EMBEDMENT DEPTH
H + D = 12ft TOTAL LENGTH OF SOLDIER BEAM
Sr = 6 4 in3 REQUIRED SECTION MODULUS
d = 30 in EFFECTIVE DIAMETER OF TOE SHAFT
cant h=4ftbm 1,17 mcd
SECTION 4
'THSUPPORT SYSTEMS
ICA920&
checked By'
//Q/o&/o2>No
Client
Description
ORIGINAL GRADE
LOADING DIAGRAM EOR
CANTILEVERED SHORING SYSTEM
NO HYDROSTATIC PRESSURE
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. . ,
Earth Support Systems, Inc
1833 Diamond St , Suite
San Marcos, CA 92069
-
PARAMETERS
H = 100ft
D = 15 ft
c = 85 psf
c' = 85 psf
Pa = 40 pcf
Pp - 240 pcf
<j> = 31 deg
Y-] =115 pcf
Ysat = 115 pcf
Y2 = Ysat - 0 Pcf
Y2 = 1 1 5 pcf
PaH-2c /-
•Jp • '"a H
Pa> = 30 pcf
Pp D + 2 c' I
>/
P D
104
Y1
5
Y1
Pp. = 256 pcf
„ pa'Ka =
Y1
Ka = 0 26
« Pp'*p -
Y1
Kp = 2 23
Villas de Luz
Engr RCJ Date 10/06/03
Sheet /4" of
CANTILEVER DESIGN
SB_NUMBER = "2-11"
HEIGHT OF SHORING SYSTEM
ASSUMED INITIAL TOE EMBEDMENT DEPTH
SOIL COHESION (ACTIVE PRESSURE)
SOIL COHESION {PASSIVE PRESSURE)
ACTIVE PRESSURE (NEGLECTING SOIL COHESION)
PASSIVE PRESSURE (NEGLECTING SOIL COHESION)
SOIL FRICTION ANGLE
UNIT WEIGHT OF SOIL ABOVE SUBGRADE
SATURATED UNIT WEIGHT OF SOIL
BOUYANT UNIT WEIGHT OF SOIL BELOW WATER TABLE
ACTIVE SOIL PRESSURE ORDINATE PER FOOT OF DEPTH BELOW GRADE
(ACCOUNTING FOR SOIL COHESION)
PASSIVE PRESSURE ORDINATE PER FOOT OF DEPTH BELOW SUBGRADE
(ACCOUNTING FOR SOIL COHESION)
= ACTIVE EARTH PRESSURE COEFFICIENT
= PASSIVE EARTH PRESSURE COEFFICIENT
canth=10ftbm 2-11 mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet /^ of
d = 30 in
xb = 8 ft
Fy = 50 ksi
Fb = 1 33 0 60 Fy
Peq = 0 psf
Peq = 0psf
Ps = 100 psf
Hs = 10 ft
xs = 0 ft
I = 2
P vert = 000k
008
\\
f ~ mm
VV
f = 0 775
qbear = 0 0 psf
f-i = 600 psf
deg
JJ
evert = ° ft
evert
= EFFECTIVE DIAMETER OF TOE SHAFT
= TRIBUTARY WIDTH OF SOLDIER BEAMS
= YIELD STRENGTH OF STEEL
= ALLOWABLE BENDING STRESS FOR STEEL
= EQUIVALENT EARTHQUAKE PRESURE
= TRAFFIC/CONSTRUCTION SURCHARGE PRESSURE
= HEIGHT OF SURCHARGE LOADING DIAGRAM
= DISTANCE FROM SURFACE TO SURCHARGE APPLICATION POINT
= VERTICAL LOAD FROM PEDESTRIAN WALKWAY (DEAD + LIVE)
ISOLATED POLE FACTOR ( FOR ARCHING EFFECT )
= RATIO OF TOE WIDTH TO SOLDIER BEAM SPACING { ARCHING FACTOR )
= ALLOWABLE SOIL BEARING CAPACITY FOR TOE
= ALLOWABLE SOIL FRICTION
= ECCENTRICITY OF VERTICAL LOAD
= MOMENT DUE TO VERTICAL LOAD
MVert = Ok
cant h=10 ft bm 2-11 mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet t& of
SOIL PRESSURE @ SUBGRADE PA1 = Pa- H PA1 = 299 74Ib
CALCULATE REQUIRED TOE DEPTH
(Assume trial values for z and D and solve)
z = 6 ft
PA2{z,D)
D = 20 ftAWV
PE<z,D) =-f Pa- H-fY2KaD
Pj(z, D) = f Y2 Kp D + f Y1 Kp H - f Y2 Ka D
Given
PA1 H , , . , D
-^- + (Ps Hs) + (f PA1 + PA2(z,D)) -Ib
D(PE(z, D) + Pj(z, D)) - - (PE(Z, D) + PA2(z, D)) -
PA1 H f H A , A Hs
- + D + (Ps Hs) D + H - xsV s s; s
(PE(Z, D) + Pj(z, D)) ~ - [PE{z, D) + (PA2(z, D})] — + Mvert
z>0 ft
ft= 0 Ib -ft
^Dval
z = zval
= Find(z,D)
D = Dval z=347ft
D= 14 08 ft
ROUND OFF "D" TO THE NEAREST
1 FT INCREMENT
D - Floor(D,ft)+ 1 ft D= 15ft
DISTANCE TO POINT OF ZERO
PRESSURE "O"
O
72 (Kp - Ka)O=1 32ft
cant h^10 ft bm 2-11 mod
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/06/03
Sheet I? of
DISTANCE TO POINT OF ZERO SHEAR y = 2 ft
(FROM POINT "O")
Given
/ -v V H OY2 (KP - Ka) y~ - PA1 --fpAi ^kip
= Rnd<y>
y=55ft
TOTAL ACTIVE SOIL LOAD P> HdH
on kipPi = 1 5 —1 ft
ACTIVE SOIL PRESSURE MOMENT
{ABOUT ZERO SHEAR LOCATION "y")
H= PI — + O + y
= 1522 kip ft
ACTIVE SOIL LOAD BLW SUBGRADE P2
PA1Of kip—ft
ACTIVE SOIL PRESSURE MOMENT
BELOW SUBGRADE ( ABOUT "y")
M2 =2 O
M2 - 0 98kip ft
SURCHARGE LOAD
-hU+xc
PsdHs kip
ft
SURCHARGE MOMENT ABOUT "y"
Hs= P4 H
M4 = 11 82 kip ft
PASSIVE SOIL LOAD BLW SUBGRADE P3 = f Y2 (Kp - Ka) —
{ABOUT "y") 2 P3 = 2 65 kip
PASSIVE SOIL PRESSURE MOMENT M3 = P3
BELOW SUBGR { ABOUT "y")
SOLDIER BEAM MOMENT M = [(MI + M2 - MS) + M4 + Mvert|
M= 185 Skip ft
cant h=10 ft bm 2-11 mcd
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Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
REQUIRED SECTION MODULUS Sr =
TRY BEAM = "W 16x36"Ax = 10 6 in
rx = 6 51 in
Sx = 56 5 in'
I = 448 in4
L = H+ y+ O
/Kv= 1
E = 29 103 ksi
CHECK AXIAL STRESSES
CHECK BENDING STRESSES
COMBINED AXIAL AND BENDING
KL
2C
K L\ ( K L
8C
M
Villas de Luz
Engr RCJ Date 10/06/03
Sheet /£ of
= 2703ksi
fa = 0ksi
fb = 3936ksi
+ — = 0 99
CHECK = if — + — < 1 0, "OK'" , "NO GOOD"
I Fa Fb
CHECK = "OKI"
BEAM - if (CHECK = "OK"", TRY__BEAM, "CHECK NEW SIZE"}
BEAM = "W 16x36'
cant h=10 ft bm 2-11 mod
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Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
CHECK TOE DEPTH FOR VERTICAL LOAD
= Floor
Pvert" re —4
n d f-j
SELECT TOE DEPTH "D"
TOE DEPTH SELECTED
D' = if(D>Dv,D,Dv)
D = Ceil(D\ft)
INCREASE "D" FOR FACTOR OF SAFETY
D = Ceil(D 1 00, ft) + OftAW V ' '
PA2(z,D) = 58075psf
PE(z,D) = 24x 103psf
Pj(z,D) = 46 103psf
FACTORS OF SAFETY D-z-O
Px1 =fY2(Kp-Ka)(0+x1)
x2 =z
X3 =Z-X2
PS -
Px1
+ 1 ft
Dw = 1 ft
D' = 15ft
D=15ft
D= 15ft
cant h^10 ft bm 2-11 mcd
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••
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Earth Support Systems, Inc
1833 Diamond St , Suite 104
San Marcos, CA 92069
SLIDING FORCES
RESISTING FORCES
OVERTURNING MOMENTS
, , (
M0=P1 - + D +P4 D +
V «j / \
RESISTING MOMENTS
CHECK DEFLECTION:
BEAM = "W 16x36"
P-l =1498 7 plf
P? = PC HsAivAv ° °
P2 = 1 klf
E = 29 106 psiAW
I =448 in4
DL = H+ -"* 3
L=180m
V = 0 in/&A
(Pi + P2) *b / 5
60 E I L2
*max = 060,n
*
Villas de Luz
Engr RCJ Date 10/06/03
Sheet 2O of
FS = P1 + P4+P2+P6 Fs = 823klf
r = 5 + P7 Fr=11 39 klf
Hs^ ( 0^ (^}H-xs-^Up2D--j+P6ly+ Mvert
^ 4 ftM0 = 542x 10 Ib -
Oi- I V f*. -1- V f^ 1 I 1 P^r I Vrt f . Jr "" ' 5 2 3 7 1 *3 ~^ (V 3 j ^ 3 )V 4 ftMr = 743x 10 Ib -ft
FSs^5 FS FSS=14
MrFS0 =
Mo FS0 = 1 4
SELECTED SOLDIER BEAM
TOTAL ACTIVE SOIL LOAD
TOTAL SURCHARGE LOAD
MODULUS OF ELASTICITY FOR STEEL
MOMENT OF INERTIA
EFFECTIVE LENGTH OF SOLDIER BEAM FOR CALCULATING DEFLECTION
DISTANCE FROM TOP OF SOLDIER BEAM FOR CALCULATING DISPLACEMENT
L4y+4L5)
MAXIMUM LATERAL DISPLACEMENT
canth=10ftbm 2-11 mcd
I Earth Support Systems, Inc Villas de Luz
1833 Diamond St, Suite 104 Engr RCJ Date 10/06/03
• San Marcos, CA 92069 Sheet £/ of
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DESIGN SUMMARY: SB^NUMBER = -2-1 I--
BEAM = "W 16 x 36" SELECTED SOLDIER BEAM
H = 10ft HEIGHT OF SHORING
D = 15ft TOE EMBEDMENT DEPTH
H + D = 25ft TOTAL LENGTH OF SOLDIER BEAM
Sr = 55 7in3 REQUIRED SECTION MODULUS
d = 30m EFFECTIVE DIAMETER OF TOE SHAFT
cant h=10ttbm 2-11 mcd
SECTION 5
TH SUPPORT SYSJWSISWOAMOND STREET SURE 104
vfpGQ 761-O493
Checked By
Date Job No
Client
Job Description
Sh«ot
ORIGINAL GRADE
BOnOMtOF EXCAVATION
LOADING DIAGRAM FOR
CANTILEVERED SHORING SYSTEM
NO HYDROSTATIC PRESSURE
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
PARAMETERS
H = 100ft
D = 15ft
c = 85 psf
c' = 85 psf
Pa = 40 pcf
Pp = 240 pcf
<f> = 31 deg
Y1 =115 pcf
Ysat = 115 pcf
Y2 = Ysat - 0 Pcf
Y2 = 115 pcf
PaH-2c —
PP' =
H
Pa- = 30pcf
D+2 c' —
D
Pp' = 256 pcf
p ,
71
-JL
Y1
= 0 26
Villas de Luz
Engr RCJ Date 10/07/03
Sheet ^ of
CANTILEVER DESIGN
SB_NUMBER = "12-16"
HEIGHT OF SHORING SYSTEM
ASSUMED INITIAL TOE EMBEDMENT DEPTH
SOIL COHESION {ACTIVE PRESSURE)
SOIL COHESION (PASSIVE PRESSURE)
ACTIVE PRESSURE (NEGLECTING SOIL COHESION)
PASSIVE PRESSURE (NEGLECTING SOIL COHESION)
SOIL FRICTION ANGLE
UNIT WEIGHT OF SOIL ABOVE SUBGRADE
SATURATED UNIT WEIGHT OF SOIL
BOUYANT UNIT WEIGHT OF SOIL BELOW WATER TABLE
ACTIVE SOIL PRESSURE ORDINATE PER FOOT OF DEPTH BELOW GRADE
(ACCOUNTING FOR SOIL COHESION)
PASSIVE PRESSURE ORDINATE PER FOOT OF DEPTH BELOW SUBGRADE
(ACCOUNTING FOR SOIL COHESION)
= ACTIVE EARTH PRESSURE COEFFICIENT
= PASSIVE EARTH PRESSURE COEFFICIENT
Kp = 2 23
cant h-10 ft bm 12-16 with building surcharge mcd
Earth Support Systems, !nc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet 2-4 of
d = 30 in
Xh = 8 ft
Fy = 50 ksi
Fb = 1 33 0 60 Fy
Fb=40ksi
Peq = 0 psf
Peq = 0psf
Ps = 175 psf
Hs = 8 ft
x = 2 ft
Pvert = 0
Pvert = 0 00 k
- 2
008
f = mm
VV
f = 0 775
qbear = 0 0 psf
f-1 = 600 psf
deg
evert =
'vert -
evert
- EFFECTIVE DIAMETER OF TOE SHAFT
= TRIBUTARY WIDTH OF SOLDIER BEAMS
= YIELD STRENGTH OF STEEL
= ALLOWABLE BENDING STRESS FOR STEEL
= EQUIVALENT EARTHQUAKE PRESURE
- SURCHARGE PRESSURE (BUILDING)
= HEIGHT OF SURCHARGE LOADING DIAGRAM
= DISTANCE FROM SURFACE TO SURCHARGE APPLICATION POINT
VERTICAL LOAD FROM PEDESTRIAN WALKWAY (DEAD + LIVE)
- ISOLATED POLE FACTOR ( FOR ARCHING EFFECT )
- RATIO OF TOE WIDTH TO SOLDIER BEAM SPACING ( ARCHING FACTOR )
= ALLOWABLE SOIL BEARING CAPACITY FOR TOE
= ALLOWABLE SOIL FRICTION
= ECCENTRICITY OF VERTICAL LOAD
= MOMENT DUE TO VERTICAL LOAD
canth=10ft bm 12-16 with building surcharge mod
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet Z-^" of
SOIL PRESSURE @ SUBGRADE
CALCULATE REQUIRED TOE DEPTH
(Assume trial values for z and D and solve)
z = 6ft
PA2(z,D) =
D = 20 ft
P- H
PA1 = Pa- H IbPal = 299 74 —Ml
ft
PE(Z,D) =
Pj(z,D) =1
Given
KpH-fY2 Ka D
PAI , . /+ (Ps Hs) + (f PA1 + PA2(z, D))
(PE(z, D) + Pj(z, D)) - (PE(Z, D) + PA2(z, D))
Ib= 0 -ft
H H(H ^ {- + D + f Ps Hs) D + HU JVss;^xsS
2
7
6
D(PE(z, D} + Pj(z, D)) - [PE{z; D) + (PA2{z, D))] — + Mvert
z>0 ft
ft
0 Ib -ft
fzval \
Fmd(z D)
z = zval
D = Dval z = 3 71 ft
D= 1481ft
ROUND OFF "D" TO THE NEAREST
1 FT INCREMENT
DISTANCE TO POINT OF ZERO
PRESSURE"O"
D = Floor(D,ft)+ 1 ftv ' '
O =
f Y2 (Kp - Ka)
D= 15ft
O= 1 32ft
cant h=10 ft bm 12-16 with building surcharge mod
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet Zfc of
DISTANCE TO POINT OF ZERO SHEAR y = 2 ft
(FROM POINT "O")
Given
O-kip
= Rnd(y)= 59ft
TOTAL ACTIVE SOIL LOAD
H
Pi = I Pa'HdH
Oft
kipPi = 1 5 —ft
ACTIVE SOIL PRESSURE MOMENT
(ABOUT ZERO SHEAR LOCATION "y")
Mi = P-t - + O + y1O M1 = 1582 kip ft
ACTIVE SOIL LOAD BLW SUBGRADE P2
PA1 O f ,
= 015 kip
ACTIVE SOIL PRESSURE MOMENT
BELOW SUBGRADE ( ABOUT "y")
2 O
+ Y
M2 = 1 04kip ft
SURCHARGE LOAD P4 =PsdHs
P4 = 1 4 kip
SURCHARGE MOMENT ABOUT "y"f HsM4 = P4 H xs + O+y
kip ft
PASSIVE SOIL LOAD BLW SUBGRADE
{ABOUT "y")
P3 = f T2 (Kp - Ka)
P3 = 3 05 kip
PASSIVE SOIL PRESSURE MOMENT
BELOW SUBGR ( ABOUT "y")= P3l^= 6kip
SOLDIER BEAM MOMENT M = [(MI + M2 - MS) + M4 + Mverj]
M= 212 58 kip ft
cant h=10 ft bm 12-16 with building surcharge mcd
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet IT of
REQUIRED SECTION MODULUS MSr = —
Fb
TRY BEAM = "W 16x40"Ax = 11 8 in
rx = 6 63 in
L = H + y + O
K = 1
Sv = 64 7 in"E = 29 10 ksi
CHECK AXIAL STRESSES
= 518 in
2 C
KM (K L Fa = 27 01 ksi
CHECK BENDING STRESSES
COMBINED AXIAL AND BENDING
fa =
3 8 Cr
"vert
~A7
JV!_
Sx"
— + — = o 99
Fa Fb
CHECK = if — + — < 1 0/OKi" , "NO GOOD"
I Fa Fb
fa = 0 ksi
= 3943ksi
CHECK = "OK'"
BEAM = if{CHECK = "OK'" , TRY_BEAM , "CHECK NEW SIZE")
BEAM = "W 16x40"
cant h=10 ft bm 12-16 with building surcharge mcd
Earth Support Systems, Inc
1833 Diamond St , Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet 20 of
CHECK TOE DEPTH FOR VERTICAL LOAD
= Floor
Pvert ~ n ~ Qbear
TU d f-|,ft
SELECT TOE DEPTH "D"
TOE DEPTH SELECTED
D' = if(D>Dv,D,Dv)
D = Ceil(D',ft)AAA/ * 7 '
+ 1 ft
Dy = 1 ft
D'=15ft
D=15ft
INCREASE "D" FOR FACTOR OF SAFETY
FACTORS OF SAFETY
D = Ceil(D 1 01, ft) + 0 ft^ '
PA2{z,D)=60398psf
PE(z,D) = 2 103psf
Pj(z,D)=479x 10psf
D-z-O
Px1 =fY2(Kp-Ka)(0+x1)
x2 =z Px1
= 16ft
X3 =Z-X2
Px1*1
Pj(z,D)x3
P7 =
Px1
cant h=10 ft bm 12-16 with building surcharge rncd
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Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
SLIDING FORCES
RESISTING FORCES
OVERTURNING MOMENTS
Fs - P1 + P4 + P2 + P6
+P2D--+P6 + MVert
RESISTING MOMENTS Mr = P5 x2 + x3 + — + P7 x3
2x2
FSn =
Mr
CHECK DEFLECTION:
BEAM = "W 16x40"
Pi =1498 7 plf
Po — P H-'- "~ ^ ^
P2 = 14klf
^=2910%^
4
SELECTED SOLDIER BEAM
TOTAL ACTIVE SOIL LOAD
TOTAL SURCHARGE LOAD
Villas de Luz
Engr RCJ Date 10/07/03
Sheet £<? of
Fs = 919klf
Fr=1306klf
4 ft
0 = 646x 10 Ib -
4 ftMr=912x 10 Ib -
ft
= 1 4
FS0 = 1 4
I =5l8m
L = H +D
L= 184 in
v = 0 in/#^\
MODULUS OF ELASTICITY FOR STEEL
MOMENT OF INERTIA
EFFECTIVE LENGTH OF SOLDIER BEAM FOR CALCULATING DEFLECTION
DISTANCE FROM TOP OF SOLDIER BEAM FOR CALCULATING DISPLACEMENT
A max -
60 E I L
R| .y -5L y+4
MAXIMUM LATERAL DISPLACEMENT
cant h=lO ft bm 12-16 with building surcharge mcd
Earth Support Systems, Inc Villas de Luz
1833 Diamond St, Suite 104 Engr RCJ Date 10/07/03
San Marcos, CA 92069 Sheet ?>O of
DESIGN SUMMARY: SELNUMBER = -12-16"
BEAM = "W 16 x 40" SELECTED SOLDIER BEAM
H = 10ft HEIGHT OF SHORING
D = 16ft TOE EMBEDMENT DEPTH
H + D = 26ft TOTAL LENGTH OF SOLDIER BEAM
Sr = 63 9m3 REQUIRED SECTION MODULUS
d = 30m EFFECTIVE DIAMETER OF TOE SHAFT
cant h-10 ft bm 12-16 with building surcharge mcd
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6
l
WSUPPORT SYSTEMS
^1833 DIAMOND S773&TSWF 104
(7SQ761-0433
Nome
Checked By Client
Job No
Sheet 2>/ of
Job Description
ARCH ACTION LINE
(PARABOLIC LOAD
DISTRIBUTION)
PLAN
u PHL,/!., d 3L,Mt""y"lT+T"T6'
=T» (45-0/2)
(45-0/2)
.1
16 2
NOTE:
SURCHARGE LOADS ARE
CONSIDERED TO ACT
BEHIND AREA L
SURCHARGE LOADS INSIDE
"L," ARE INCLUDED IN
THE LAGGING DESIGN.
VALUE OF PH?
FOR GRANULAR SOIL
\ = 7 H1TA«2 (45-0/2) Hx< H,
TAN2 (45-0/2)
PH = TI-TAN (45-0/2)
FOR COHESIVE SOIL
c = cohesion
PHuAX = 7H, TAN2 (45-0/2)-2cTAN(45-0/2)
=CyL2-2c)™(45-0/2)
LAGGING DESIGN
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet &&- of
LAGGING DESIGN
PARAMETERS:
S = 8 0 ft
d = 30 0 in
L = S - d
L-| =5 5ft
= 275ft
<t> = 31 deg
c = 100 psf
y = 115 pcf
j^= 08
Fb = 900 psi
Ps = 175 psf
Cfu =12
CD = 10
CF = 1 o
Fb CF = 900psi
1 0 if Fb CF< 1150 psi
0 85 otherwise
= MAXIMUM BEAM SPACING
- MINIMUM EFFECTIVE SHAFT DIAMETER
= CLEAR DISTANCE BETWEEN SOLDIER BEAMS
- SURCHARGE AREA BEHIND WALL
- INTERNAL FRICTION ANGLE FOR SOIL
= COHESION VALUE FOR SOIL
-UNIT WEIGHT OF SOIL
= RIGIDITY COEFFICIENT FOR RELATIVE YIELDING OF SOIL
& RETAINING STRUCTURE (K=0 5 for flexible walls)
(K = 1 for rigid walls)
= ALLOWABLE FLEXURAL STRESS FOR LAGGING (DF-LARCH #2)
= MAXIMUM SURCHARGE LOAD
- FLAT-USE FACTOR ( C fu = 1 2 FOR 2" & 3" x 12")
(Cfu = 1 1 FOR 4" x 12")
- LOAD DURATION FACTOR
= SIZE FACTOR ( C F = 1 0 FOR 2" & 3" x 12")
(CF=1 1 FOR 4" x 12"}
- WET SERVICE FACTOR
CM =
Lagging 3x12 mod
Earth Support Systems, Inc
1833 Diamond St, Suite 104
San Marcos, CA 92069
Villas de Luz
Engr RCJ Date 10/07/03
Sheet ^3 of
CHECK 3" x 12" LAGGING (ROUGH SAWN):
b = 12 in = LAGGING WIDTH
cL, = 2 75 in
b dw
BLAGGING THICKNESS
= SECTION MODULUS
Sm= 15 125
LAGGING STRESSES:
phmax L2 - 2 c) tan 45 deg - - + K P
= 205771psf
= mm
Phmax
400 psf+ K Ps
= 205771psf
= MAXIMUM SOIL PRESSURE
= MAXIMUM SOIL PRESSURE ALLOWED
PhL1 d
+
16 2
MC| = 1120 Ib ft
= MAXIMUM BENDING MOMENT
Mdb
u CD CM
fb = 740 5 psi
CHECK = if (f b < Fb, "OK" , "NO GOOD")
CHECK - "OK"
= ACTUAL BENDING STRESS
USE 3" x 12" DF#2 LAGGING
Lagging 3x12 mcd
SECTION 7
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EARTH SUPPORT SYSTEMS, INC
VILLAS DE LUZ
SOLDIER BEAM SCHEDULE
OCTOBER 7, 2003
REVISION 0
SOLDIER BEAM SCHEDULE
From To
SB SB
1 1
2 11
12 16
17 17
SB
Qty
1
10
5
1
Use !
Section j
I
W12X26 !
W16X36
W16X40 .
W 12X36 .
Shore
Height
H
ft
40
100
100
40
Toe
Depth
D
ft
80
150
160
70
Total
Drill
H+D
ft
120
250
260
11 0
Toe
Diameter
d
in
30
30
30
30
SECTION 8
Se'p 24 03 02:33p 4 Design 760-433-2910 p.E
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
(619) 258-7901
Fax 258-7902
June 2, 2001
E. Howard & Pauline Eggebrecht
C/o Eggebrecht Family Limited Partnership
P.O. Box 21012
Billings, Montana 59104
Subject: Project No 01-1106E6
Limited Site Investigation
Proposed 4 or 5 Unit Residential Building Site
Lots No. 7 & 8, Maple Avenue
City of Carlsbad, California.
Dear Mr. & Mrs. Eggebrecht
In accordance with your request, we have performed a limited
investigation of the soil conditions at the subject site. The
investigation was undertaken to provide the soil engineering
criteria for site grading and recommend an appropriate foundation
system for the proposed residential development.
Our investigation found tnat the site is underlain by Terrace
Deposits (QtO to the maximum explored depth of 10 5 feet
These soils generally co-sist of ten to reddish brown, damp to
moist, medium dense, silty sand with a very low expansion
potential and a moderate compressibility.
It is our opinion that the proposed development is feasible
provided the recommendations herein are implemented during
construction
Respectfully submittec,
Mamadou Saliou Diallo, P E
RCE 54071
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Sep 24 03 02:33p 4 Design 760-433-2810 p.3
E^EBRECHT PROJECT NO 01-U06EO-
INTRODUCTION
This is to present the findings and conclusions of a soil
investigation for a proposed 4 or 5-unit, two-story residential
structure to be 1ocatec on the north side of Maple Avenue, in the
City of Carlsbad, California.
The objectives of the investigation were to determine the existing
soils conditions and provide recommendations for site development.
In order to accomplish these objectives, four (4) exploratory
trenches were excavated to a maximum depth of 10.5 feet ;
undisturbed and loose bag samples were obtained, and laboratory
tests were performed.
SITE DESCRIPTION AND PROPOSED CONSTRUCTION
The subject site is located on the north side of Maple Avenue, in
the City of Carlsbad, California. It is presently vacant with
gentle slopes to the west Vegetation consists of grass and ice
plant The proposed improvements include tie construction of a 4
or 5-unit, two-story, wood-framed, residential structure over a
parking garage The structure will oe founded on continuous and
spread footings with a slab-on-grade floor.
FIELD INVESTIGATION
Four (4) exploratory trenches were excavated to a maximum depth of
10 5 feet by a Case 580E Bacxhoe on May 1, 2001 at the approximate
locations shown on the attached Plate No 1, entitled "Location of
Exploratory Trenches". A continuous log of the soils encountered
was recorded at the time of excavation and is shown on Plates No.
2 and 3 entitled "Summary Sheet"
The soils were visually and texturally classified according to the
filed identification procedures set forth on the attached Plate
No. 4 entitled "Uniform Soil Classification Chart
Sep ?4 03 02:33p 4 Design 760-433-2910 .4
rEBRECHT PROJECT NO 01-U06E.
SURFACE CONDITIONS
The surface soils encountered during the course of our
investigation were topsail to a depth of one foot. The topsoil was
underlain by formational soils classified as Terrace Deposits
(Qtt). These soils consist of tan to reddish brown, damp to moist,
medium dense, silty sand (SM).
EXPANSIVE SOILS
An expansion test was performed on a select soil sample to
determine volumetric change characteristics with change in
moisture content An expansion index of zero indicates a very low
expansion potential.
GRQUNEWATER
Ground water was not encountered during the course of our
investigation. Groundwater is anticipated at a depth greater than
50 feet. We do not expect ground water to affect the proposed
development.
GEOLOGIC 8AZARDS
A review of the available geological literature pertaining to the
site indicates the existence of the Rose Canyon/ Newport-Englewood
Fault; Zone approximately 7 0 Km to the west. Ground shaking from
this fault or ore of trie ma]or active faults in the region is tne
most: likely happening to affect the site. With respect to this
hasard,4 the si-re is comparable to others in the general area.
The proposed residenta al structure should be designed in
accordance with seismic design requirements of the 1997 Uniform
Building Code or the Structural Engineers Association of
California using the following seismic design parameters•
PARAMETER
Seismic Zone Factor, Z
Soil Piofile Type
Seismic Coefficient, Ca
Seismic Coefficient, Cv
Near-Source Factor, Na
Near-Source Factor, Nv
Seismic Source
VALUE
040
SD
044
070
1 0
1 1
B
UBC REFERENCE
Table 16-1
Table 16-J
Table 16-Q
Table 16-R
Table 16-S
Table 16-F
Table 16-U
I , Sep ,24 03 Q2:34P 4 Design 760-433-2810 P.5
EG&ZBRECHT PROJECT HO Q
Based on the absence of shallow ground water and the consistency
of the subgrade soils, it is our opinion that the potential for
liquefaction is low.
CONCLUSIONS A2?D RECOMMENDATIONS
The following conclusions and recommendations are based upon the
analysis of the data and information obtained from our soil
investigation. This includes visual inspection; field
investigation; laboratory testing and our general knowledge of the
soils native to the site The site is suitable for the proposed
commercial development provided the recommendations set forth are
implemented during construction.
GRADING AMD EARTHWORK
Site grading should begin with clearing and grubbing, e.g the
removal of topsoil, vegetation and deleterious materials. It is
our understanding that the subgrade soils extending to a depth of
approximately five (5) feet telow existing grade will be removed
from the site to accommodate the proposed underground garage
structure. The soils encountered at this cepth will be adequate
for the support of the residential structure and should be
observed by a representative of this firm to verify soil
conditions. Grading should be done in accordance with the attached
appendix A.
FOUNDATION ANV SLAB
a. Continuous and spread footings are suitable for the proposed
residential structure Continuous footings should extend a minimum
of 24 inches into the native soils The footings should be at
least 15 inches wide and reinforced with four #4 steel bars; t^o
bars placed near the top of the foot3 ngs and the other two ba^s
placed near the bottom of the footings These recommendations are
mnimum amounts and must oe verified by the project structural
engineer.
b Concrete floor slabs for the driveway and parking should be a
minimum 6 inches thiCK Reinforcement should consist of #3 bars
placed at 18 inches on center each way. Slab reinforcement should
be placed within the middle third of the slab by supporting the
steel on chairs or concrete blocks "dobies". Tne slab should be
underlain oy 4 inches of base aggregate compacted to a minimum of
95 percent relative compaction (ASTM D1557). The effect of
concrete shrinkage will result in cracks in virtually all concrete
slans.
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Sep ?4 O3 O2:34p 4 Design 7GO-433-281Q p. 6
Oi-]]06Etr-
To reduce the extent of shrinkage, the concrete should be placed
at a maximum of A inch slump. The minimum steel recommended is not
intended to prevent shrinkage cracks .
c. An allowable soil beam ng value of 2750 pounds per square foot
may be used for the design of continuous and spread footings
founded a minimum of 24 inches into the native soils. This value
may be increased by 650 psf for each additional foot of depth and
by 325 psf for each additional foot of width to a maximum value of
6000 Ib/ft2.
d Lateral resistance to horizontal movement may be provided by
the soil passive pressure and the friction of concrete to soil. An
allowable passive pressure of 240 pounds per square foot per foot
of depth may be used. A coefficient of friction of 0.35 is
recommended. The soils passive pressure as well as the bearing
value may be increased by 1/3 for wind and seismic loading.
RETAINING WALLS
Unrestrained, cant lie vered retaining walls with a level backfill
may be designed to resist an active equivalent fluid pressure of
40 pounds per cuoic foot . This pressure is based on the backfill
soils being free draining and non-expansive . Backfill materials
must be approved by the soils engineer prior to use.
Restrained walls, such as basement walls, that are not free to
rotate should be designed to resist an active equivalent fluid
pressure of 60 pounds per cubic foot
SITE EXCAVATIONS
Excavations for the basement garage and utility trenches may be
made vertically for shallow depths and must be either shored or
sloped at 1H: IV for depths greater tban 4 feet . UtJ lities should
be bedded and oackfilled with clean sand or approved granular soil
to a depth of at least one foot over the pipe. This backfill shall
be uniformly watered and compactec to a firm condition for pipe
support. Tbe remainder of the backfill shall be on-site soils or
non-expansive imported soils, which shall be placed in thin lifts,
moisture conditioned and compacted to at least 90 % relative
compaction
I ,Sep £4 03 02:34p 4 Design 760-433-2810 p.7
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EGtiEBRECHT PROJECT NO Q1-11Q6E6~
DRAINAGE
Adequate measures shall be undertaken to properly finish grade the
site after the structures and other improvements are in place,
such that the drainage water within the site and adjacent
properties is directed away from the foundations, footings, floor
slabs and the tops of slopes via surface swales and subsurface
drains towards the natural drainage for this area Proper surface
and subsurface drainage will be required to minimize the potential
of water seeking the level of tne bearing soils under the
foundations, footings and floor slabs, which may otherwise result
in undermining and differential settlement of the structures and
other improvements
LXMITS OF INVESTIGATION
The recommendations provided in this report pertain only to the
site investigated and based upon the assumption that the soil
conditions cio not deviate from those disclosed in the trenches. If
any variations or undesirable conditions are encountered during
construction, or if the proposed construction will differ from
that planned at the present time, East County Soil Consultation
and Engineering, Inc. should be notified so that supplemental
recommendations can be provided
Plates No, 1 through 4, Pages L-l and L-2, References, and
Appendix A are parts of this report.
Respectfully submitred,
Mama clou Saliou Diallo
RCE 54 (PI
MSD/rad
Sep 02:35p 4 Design 760-433-2810 P.8
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EAST COUNTY SOIL CONSULTATION
& ENGINEERING, INC
10925 HARTLEY RD . SUITE 1 SANTHE, CA 92071
(619) 258-7901 ^" (619) 258-7902
//£> /
., Sep 24 03 02: 3Sp 4 Design 760-433-2810 p.9
E&GEBRECHT PROJECT NO Q1-HQ6E6
PLATE NO. 2
SUMMARY SHEET NO. 1
TRENCH NO. 1
DEPTH SOIL DESCRIPTION
Surface TOPSOIL
brown, moist, loose, fine
grained silty sand (SM)
1.0' TERRACE DEPOSITS (QtJ
brown, moist, medium dense,
fine grained silty sand (SM)
3 5' reddish brown/ moist, medium dense,
fine grained silty sand (SM)
4.5' tan to reddish brown, moist, dense,
fine to medium grained
silty sane (SM)
5.5' bottom of trench
trench backfilled 5-1-01
Y M
TRENCH NO. 2
DEPTH SOIL DESCRIPTION M
Surface TOPSOIL
brown, moist, loose, fine
grained silty sand (SM)
1 0' TERRACE DEPOSITS (Qt^
reddish brown, damp, medium dense,
fine grained silty sand (SM)
3 5' reddish brown, moist, medium dense
fine grained silty sand (SM)
4 5' tan to reddish brown, damp, dense,
fine to medium grained
silty sano (SM)
6.0' bottom of trench,
trench backfilled 5-1-01
(Sep 24 03 02:35p Design 760-433-2810 p. 10
PLATE NO 3
SUMMARY SHEET NO 2
TRENCH NO. 3
DEPTH SOIL DESCRIPTION
Surface TOPSOIL
brown, moist, loose, fine
grained silty sand (SM)
1.0' TERRACE DEPOSITS (Qti)
reddish brown,, moist, medium dense,
fine grained silty sand (SM)
3.0' reddish brown, damp to moist, medium
dense, fine grained silty sand (SM)
4 0' tan to reddisa brown, damp, dense,
fine to medium grained
silty sand (SM)
5 0' bottom of trench
trench backfilled 5-1-01
M
J-OLE NO
DEPTH SOIL DESCRIPTION M
Surface
1 0'
3 0'
4 5'
1 0'
10.5'
TOPSOIL
brown, moist, loose, fine
grained silty sand (SM)
TERRACE DEPOSITS (Qti)
reddish brown, moist, medium dense,
fine grained silty sand (SM^
reddish brown, moist, meaium dense,
fine grained silty sand (SIM)
tan to reddish brown, damp, dense,
fine to liediurn grained
silty sand (SM)
bottom of trench
110.4 4 2
trench backfillec 5-1-01
?4 03 02:35p 4 Design 760-433-2810 p. 11
MAJOR DIVISIC »
COARSE
GRAINED SOILS
(MORE THAN V, OF SOIL >
NO 200 SIEVE SIZE)
FINE GRAINED
SOILS
(MORE THAN'/j OF SOIL <
NO 200 SIEVE SIZE)
GRAVELS
(MORE THAN V,
OF COARSE
FRACTION
>NO 4 SIEVE
SIZE)
SANDS
[MORE THAN1/,
OF COARSE
FRACTION
<NO 4 SIEVE
S(ZE)
SILTS &
CLAYS
LIQUID LIMIT
<50
SILTS &
CLAYS
LIQUID LIMIT
>50
HIGHLY ORGANIC SOILS
SYMBOL
GW
GP
GM
GC
sw
SP
SM
sc
ML
CL
OL
MH
CH
OH
Pt
DE RIPTION
WELL GRADED GRAVELS OR GRAVEL- SAND
MIXTURES, LITTLE OR NO FINES
POORLY GRADED GRAVELS OR GRAVEL-SAND
MIXTURES, LITTLE OR NO FINES
SILTY GRAVELS, GRAVEL-SAND-SILT MIXTURES
CLAYEY GRAVELS GRAVEL-SAND-CLAY MIXTURES
WELL GRADED SANDS OR GRAVE! LY SANDS,
LITTLE OR NO FINES
POORLY GRADED SANDS OR GRAVELLY SANDS,
LITTLE OR NO FINES
SILTY SANDS, SILT-SAND MIXTURES
CLAYEY SANDS, SAND-CLAY MIXTURES
INORGANIC SILTS AND VERY FINE SANDS, ROCK.
FLOUR SILTY OR CLAYEY FINE SANDS OR CLAYEY
SILTS WITH SLIGHT PLASTICITY
INORGANIC CLAYS OF LOW TO MEDIUM
PLASTICITY GRAVELLY CLAYS SANDY CLAYS,
SILTY CLAYS, LEAN CLAYS
ORGANIC SILTS AND ORGANIC SILTY CLAYS OF
LOW PLASTICITY
INORGANIC SILTS, MICACEOUS OR D1ATOMACEOUS
FINE SANDY OR SILTY SOILS ELASTIC SILTS
INORGANIC CLAYS OF HIGH PLASTICITY FAT
CLAYS
ORGANIC CLAYS OF MEDIUM TO HIGH PLASTICITY,
ORGANIC SILTY CLAYS, ORGANIC SILTS
PEAT AND OTHER HIGHLY ORGANIC SOILS
CLASSIFICATION CHART (UNIFIED SOIL CLASSIFICATION SYSTEM)
CLASSIFICATION
BOULDERS
COBBLES
GRAVEL
Coarse
Fine
SAND
Coane
Medium
Fine
SILT \ND CLA\
RANGE OF GRAIN SIZES
L^. STANDARD
SIEVE SIZE
Above 12 Inches
12 inches To 3 Inches
3 Inches to No 4
3 Inches to % Inch
V. Inch to No 4
No 4 to No 200
No 4 to No ! 0
No 1 0 to No 40
No 40 to No 200
Below No 100
GRAirs SIZE II\
MILLIMETERS
Above 305
305 To 76 2
762X0476
76 2 to 19 I
19 , to 4 76
4 76 to 0074
4 76 to 2 00
2 00 to 0 420
0 420 to 0 074
Below 0 074
GRAIN SIZE CHART PLASTICITY CHART
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC
10925 HARTLEY ROAD, SUITE "1"
SANTEE, CALIFORNIA 92071
U.S.CS SOIL CLASSIFICATION
EGGh.BRECHT RPOJECT NO. 01-1106E6
JUNE 2, 2001
PLATE NO. A
(,Sep ?4 03 02:36P 4 Design 760-433-2810 p. 12
EoGEBRECHT PROJECT NO O
iiiiiiii
LABORATORY TEST RESULTS
PAGE L-l
An expansion test m conformance with UBC 18-2 was performed on a representative sample of on-
site soils to determine volumetric change characteristics with change in moisture content The
recorded expansion of the sample is presented as follows
INITIAL SATURATED INITIAL DRY
MOISTURE MOISTURE DENSITY EXPANSION
CONTENT% CONTCNT% LB /CU FT INDEX
93 164 1119 ZERO TRENCH NO 2
raso*
10
,SeP 03 02:3Gp 4 Design 760-433-2810 p. 13
I
DIRECT SHEAR SUMMARY
5000 —
4500
4000
3500
£ 3000 h
COUJ
*
«
a:
2500 -
2000
1500
1000
500
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000
NORMAL STRESS [PSF] (2 3/8" SAMPLE)
SAMPLE DESCRIPTION
ANGLE OF
INTERNAL
FRICTION
COHESION
INTERCEPT
{PSF)
EGGEBRECHT PROJECT
MAPLE AVENUE, CARLSBAD
Undisturbed 31'LOO
sc
ST
SOUTHERN CALIFORNIA
SOIL & TESTING, INC BY
EAST COUNTY SOILS CONSULTING
DBA/SO
JOB NUMBER QJ-1106E6
DATE 5/7/2001
PACE
•Sep 34 03 Q2:3Gp 4 Design 760-433-2810 P.14
t^GEBRECHT PROJECT NO OI-1106kv
REFERENCES
1. "1997 Edition, Uniform Building Code, Volume 2, Structural
Engineering and Design Provisions".
2. "Maps of Known Active Fault Near-Source Zones in California and
Adjacent Portions of Nevada", Page 0-36, used with the 1997
Edition of the Uniform Building Code, Published by International
Conference of Building Officials.
3 "DMG Open-File Report 96-02, Geologic Maps of the Northwestern
Part of San Diego County, California. Plate No. 1, Geologic Map of
the Ocean side, San Luis Rey and San Marcos 7 5' Quadrangles", by
Siang S. Tan and Michael P Kennedy, 1996
11
34 03 02:3GP 4 Design 760-433-2810 p.15
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE I
SANTEE, CALIFORNIA 92071
(619)258-7901
APPENDIX A
RECOMMENDED EARTHWORK SPECIFICATIONS
1 General Description
The intent of these specifications is to obtain uniformity and adequate strength m filled ground so
that the proposed structures may be safely supported The procedures include the clearing and
preparation of the land to be filled, processing the fill soils, the spreading, and compaction of the
filled areas to conform with the lines and grades as shown on the approved plans
The owner shall retain a Civil Engineer qualified m soil mechanics (herein referred to as engineer)
to inspect and test earthwork in accordance with these specifications The engineer shall advise the
owner and grading contractor immediately if any unsatisfactory conditions are observed to exist
and shall have the authority to reject the compacted filled ground until such time that corrective
measures are taken, necessary to comply with the specifications It shall be the sole responsibility
of the grading contractor to achieve the specified degree of compaction
2 Preparing Areas to be Filled
(a) All brush, vegetation and any biodegradable refuse shall be removed or otherwise
disposed of so as to leave the areas to be filled free of vegetation and debris Any uncompacted
filled ground or loose compressible natural ground shall be removed unless the report recommends
otherwise Any buried tanks or other structures shall be removed and the depression backfilled to
the satisfaction of the engineer
(b) The natural ground which is determined to be satisfactory for the support of the filled
ground shall then be plowed or scarified to a depth of at least 12 inches (12")
(c) After the natural ground has been prepared, it shall then be brought to the proper
moisture content and compacted to not less than 90 percent of maximum dry density in accordance
with ASTMD1557-91
(d) Where fills are made on slopes greater than 20 percent, horizontal benches shall be cut
into the firm natural ground The initial bench at the toe of the fill shall be at least 15 feet in width
on firm undisturbed natural ground The width of all succeeding benches shall be at least 6 feet
4 O3 02:37p 4 Design 760-433-2810 p.16
41
^ APPENDIX A _ 2
3 Fill Materials
All material shall be approved by the engineer and shall consist of materials free from vegetable
matter, and other lumps greater than 6 inches in diameter If, during grading operations, soils are
found which were not encountered and tested in the preliminary investigation, tests on these soils
shall be performed to determine their physical characteristics Any special treatment recommended
in the preliminary or subsequent soils reports not covered herein shall become an addendum to
these specifications.
4 Placing and Compacting Fill Matenals
(a) When the moisture content of the fill material is below that specified, water shall be
added until the moisture content is near optimum to assure uniform mixing and effective
compaction
(b) When the moisture content of the fill materials is above that specified, the fill material
shall be aerated by bladmg and scarifying or other satisfactory methods until the moisture content is
near optimum as specified
(c) After processing, the suitable fill materials shall be placed in layers which, when
compacted, shall not exceed six inches (6") Each layer shall be spread evenly and shall be
thoroughly mixed during the spreading insure uniformity of materials and moisture in each layer
(d) After each Ia>er has been placed, mixed and spread evenly, it shall be thoroughly
compacted to not less than the density set forth in paragraph 2 (c) above Compaction shall be
accomplished with approval types of compaction equipment. Rolling shall be accomplished while
the fill material is at the specified moisture content In place density tests shall be performed in
accordance with ASTM Dl 556-90
(e) The surfaces of the fill slopes shall be compacted by means of sheepsfoot rollers or other
suitable equipment Compacting operations shall be continued until the slopes are stable and until
there is no appreciable amount of loose soil on ihe slopes
5 Inspection
Sufficient inspection by our firm or the Soil's Engineer of record and/or his/her representative shall
be maintained during the filling and compacting operations so that he/she can verify that the fill
was constructed in accordance with the accepted specifications
6 Seasonal Limits
No fill material shall be placed, spread, or rolled if weather conditions increase the moisture
content above permissible limits When the work is interrupted by rain, fill operations shall not be
resumed until the moisture content and density of fill are as previously specified
All recommendations presented in the attached report are a pan of these specifications
License Detail Page 1 of2
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License Detail
Contractor License # 421785
CALIFORNIA CONTRACTORS STATE LICENSE BOARD
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* * *
Extract Date 02/06/2004
Business Information * * *
EDGAR MULLEN CONSTRUCTION DBA MULLEN CONSTRUCTION
2890 PIO PICO DR #202
CARLSBAD, CA 92008
Business Phone Number (858) 756-0122
Entity Corporation
Issue Date 04/22/1982 Reissue Date 12/10/2003 Expire Date 12/31/2005
* * * License Status
This license is current and active All information below should be reviewed.
* * * Classifications * * *
Class
B
Description
GENERAL BUILDING CONTRACTOR
* * * Bonding Information * * *
CONTRACTOR'S BOND: This license filed Contractor's Bond number 1035939 in the
http //www2 cslb ca gov/CSLB_LIBRARY/License+Detail asp 02/06/2004